/*
 *
 *    Copyright (c) 2022 Project CHIP Authors
 *
 *    Licensed under the Apache License, Version 2.0 (the "License");
 *    you may not use this file except in compliance with the License.
 *    You may obtain a copy of the License at
 *
 *        http://www.apache.org/licenses/LICENSE-2.0
 *
 *    Unless required by applicable law or agreed to in writing, software
 *    distributed under the License is distributed on an "AS IS" BASIS,
 *    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *    See the License for the specific language governing permissions and
 *    limitations under the License.
 */

// THIS FILE IS GENERATED BY ZAP
// This file is generated from clusters-Commands.h.zapt

#pragma once

#include <app/data-model/DecodableList.h>
#include <app/data-model/Encode.h>
#include <app/data-model/List.h>
#include <app/data-model/NullObject.h>
#include <app/data-model/Nullable.h>
#include <lib/core/DataModelTypes.h>
#include <lib/core/Optional.h>
#include <lib/core/TLV.h>
#include <lib/support/BitMask.h>

#include <clusters/shared/Enums.h>
#include <clusters/shared/Structs.h>

#include <clusters/Groupcast/ClusterId.h>
#include <clusters/Groupcast/CommandIds.h>
#include <clusters/Groupcast/Enums.h>
#include <clusters/Groupcast/Structs.h>

#include <cstdint>

namespace chip
{
namespace app
{
	namespace Clusters
	{
		namespace Groupcast
		{
			namespace Commands
			{
				// Forward-declarations so we can reference these later.

				namespace JoinGroup
				{
					struct Type;
					struct DecodableType;
				} // namespace JoinGroup

				namespace LeaveGroup
				{
					struct Type;
					struct DecodableType;
				} // namespace LeaveGroup

				namespace LeaveGroupResponse
				{
					struct Type;
					struct DecodableType;
				} // namespace LeaveGroupResponse

				namespace UpdateGroupKey
				{
					struct Type;
					struct DecodableType;
				} // namespace UpdateGroupKey

				namespace ExpireGracePeriod
				{
					struct Type;
					struct DecodableType;
				} // namespace ExpireGracePeriod

				namespace ConfigureAuxiliaryACL
				{
					struct Type;
					struct DecodableType;
				} // namespace ConfigureAuxiliaryACL

			} // namespace Commands

			namespace Commands
			{
				namespace JoinGroup
				{
					enum class Fields : uint8_t {
						kGroupID = 0,
						kEndpoints = 1,
						kKeyID = 2,
						kKey = 3,
						kGracePeriod = 4,
						kUseAuxiliaryACL = 5,
					};

					struct Type {
					public:
						// Use GetCommandId instead of commandId directly to avoid naming
						// conflict with CommandIdentification in ExecutionOfACommand
						static constexpr CommandId GetCommandId()
						{
							return Commands::JoinGroup::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						DataModel::List<const chip::EndpointId> endpoints;
						uint32_t keyID = static_cast<uint32_t>(0);
						Optional<chip::ByteSpan> key;
						Optional<uint32_t> gracePeriod;
						Optional<bool> useAuxiliaryACL;

						CHIP_ERROR Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const;

						using ResponseType = DataModel::NullObjectType;

						static constexpr bool MustUseTimedInvoke() { return false; }
					};

					struct DecodableType {
					public:
						static constexpr CommandId GetCommandId()
						{
							return Commands::JoinGroup::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}
						static constexpr bool kIsFabricScoped = true;

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						DataModel::DecodableList<chip::EndpointId> endpoints;
						uint32_t keyID = static_cast<uint32_t>(0);
						Optional<chip::ByteSpan> key;
						Optional<uint32_t> gracePeriod;
						Optional<bool> useAuxiliaryACL;

						CHIP_ERROR Decode(TLV::TLVReader &reader,
								  FabricIndex aAccessingFabricIndex);
					};
				}; // namespace JoinGroup
				namespace LeaveGroup
				{
					enum class Fields : uint8_t {
						kGroupID = 0,
						kEndpoints = 1,
					};

					struct Type {
					public:
						// Use GetCommandId instead of commandId directly to avoid naming
						// conflict with CommandIdentification in ExecutionOfACommand
						static constexpr CommandId GetCommandId()
						{
							return Commands::LeaveGroup::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						Optional<DataModel::List<const chip::EndpointId>> endpoints;

						CHIP_ERROR Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const;

						using ResponseType =
							Clusters::Groupcast::Commands::LeaveGroupResponse::DecodableType;

						static constexpr bool MustUseTimedInvoke() { return false; }
					};

					struct DecodableType {
					public:
						static constexpr CommandId GetCommandId()
						{
							return Commands::LeaveGroup::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}
						static constexpr bool kIsFabricScoped = true;

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						Optional<DataModel::DecodableList<chip::EndpointId>> endpoints;

						CHIP_ERROR Decode(TLV::TLVReader &reader,
								  FabricIndex aAccessingFabricIndex);
					};
				}; // namespace LeaveGroup
				namespace LeaveGroupResponse
				{
					enum class Fields : uint8_t {
						kGroupID = 0,
						kEndpoints = 1,
						kListTooLarge = 2,
					};

					struct Type {
					public:
						// Use GetCommandId instead of commandId directly to avoid naming
						// conflict with CommandIdentification in ExecutionOfACommand
						static constexpr CommandId GetCommandId()
						{
							return Commands::LeaveGroupResponse::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						Optional<DataModel::List<const chip::EndpointId>> endpoints;
						Optional<bool> listTooLarge;

						CHIP_ERROR Encode(DataModel::FabricAwareTLVWriter &aWriter,
								  TLV::Tag aTag) const;

						using ResponseType = DataModel::NullObjectType;

						static constexpr bool MustUseTimedInvoke() { return false; }
					};

					struct DecodableType {
					public:
						static constexpr CommandId GetCommandId()
						{
							return Commands::LeaveGroupResponse::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						Optional<DataModel::DecodableList<chip::EndpointId>> endpoints;
						Optional<bool> listTooLarge;

						CHIP_ERROR Decode(TLV::TLVReader &reader);
					};
				}; // namespace LeaveGroupResponse
				namespace UpdateGroupKey
				{
					enum class Fields : uint8_t {
						kGroupID = 0,
						kKeyID = 1,
						kKey = 2,
						kGracePeriod = 3,
					};

					struct Type {
					public:
						// Use GetCommandId instead of commandId directly to avoid naming
						// conflict with CommandIdentification in ExecutionOfACommand
						static constexpr CommandId GetCommandId()
						{
							return Commands::UpdateGroupKey::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						uint32_t keyID = static_cast<uint32_t>(0);
						Optional<chip::ByteSpan> key;
						Optional<uint32_t> gracePeriod;

						CHIP_ERROR Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const;

						using ResponseType = DataModel::NullObjectType;

						static constexpr bool MustUseTimedInvoke() { return false; }
					};

					struct DecodableType {
					public:
						static constexpr CommandId GetCommandId()
						{
							return Commands::UpdateGroupKey::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}
						static constexpr bool kIsFabricScoped = true;

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						uint32_t keyID = static_cast<uint32_t>(0);
						Optional<chip::ByteSpan> key;
						Optional<uint32_t> gracePeriod;

						CHIP_ERROR Decode(TLV::TLVReader &reader,
								  FabricIndex aAccessingFabricIndex);
					};
				}; // namespace UpdateGroupKey
				namespace ExpireGracePeriod
				{
					enum class Fields : uint8_t {
						kGroupID = 0,
					};

					struct Type {
					public:
						// Use GetCommandId instead of commandId directly to avoid naming
						// conflict with CommandIdentification in ExecutionOfACommand
						static constexpr CommandId GetCommandId()
						{
							return Commands::ExpireGracePeriod::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}

						chip::GroupId groupID = static_cast<chip::GroupId>(0);

						CHIP_ERROR Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const;

						using ResponseType = DataModel::NullObjectType;

						static constexpr bool MustUseTimedInvoke() { return false; }
					};

					struct DecodableType {
					public:
						static constexpr CommandId GetCommandId()
						{
							return Commands::ExpireGracePeriod::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}
						static constexpr bool kIsFabricScoped = true;

						chip::GroupId groupID = static_cast<chip::GroupId>(0);

						CHIP_ERROR Decode(TLV::TLVReader &reader,
								  FabricIndex aAccessingFabricIndex);
					};
				}; // namespace ExpireGracePeriod
				namespace ConfigureAuxiliaryACL
				{
					enum class Fields : uint8_t {
						kGroupID = 0,
						kUseAuxiliaryACL = 1,
					};

					struct Type {
					public:
						// Use GetCommandId instead of commandId directly to avoid naming
						// conflict with CommandIdentification in ExecutionOfACommand
						static constexpr CommandId GetCommandId()
						{
							return Commands::ConfigureAuxiliaryACL::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						bool useAuxiliaryACL = static_cast<bool>(0);

						CHIP_ERROR Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const;

						using ResponseType = DataModel::NullObjectType;

						static constexpr bool MustUseTimedInvoke() { return false; }
					};

					struct DecodableType {
					public:
						static constexpr CommandId GetCommandId()
						{
							return Commands::ConfigureAuxiliaryACL::Id;
						}
						static constexpr ClusterId GetClusterId()
						{
							return Clusters::Groupcast::Id;
						}
						static constexpr bool kIsFabricScoped = true;

						chip::GroupId groupID = static_cast<chip::GroupId>(0);
						bool useAuxiliaryACL = static_cast<bool>(0);

						CHIP_ERROR Decode(TLV::TLVReader &reader,
								  FabricIndex aAccessingFabricIndex);
					};
				}; // namespace ConfigureAuxiliaryACL
			} // namespace Commands
		} // namespace Groupcast
	} // namespace Clusters
} // namespace app
} // namespace chip
